People – Ultrafast Photonics Lab

Biography

Prof Chaoyuan Jin received Bachelor degree in Physics from Nanjing University (China), M.Sc. degree in Microelectronics from Institute of Semiconductors, Chinese Academy of Sciences (China), and Ph.D. degree in Electronic Engineering from University of Sheffield (UK). He was awarded a JSPS Fellowship and worked on quantum dot switches at Kobe University (Japan). In 2010, he joined Eindhoven University of Technology (Netherlands) working on ultrafast control of cavity quantum electrodynamics based on single quantum dots in photonic crystal cavities. He joined EFFECT Photonics B.V in 2013. In his role as a Senior Photonics Scientist, he developed high-speed optical transceivers for short-reach optical communications based on generic photonic integration technologies. In 2015, He was awarded a Vice-Chancellor’s Fellowship, working as a Lecturer developing research programs on ultrafast photonic devices at the Department of Electronic and Electrical Engineering, University of Sheffield (UK). He is now working at Zhejiang University (China) as a Hundred Talents Professor. His current research focuses on nanophotonic integration, quantum materials, nonlinear optics and optical computation.

Papers Conference Books

2020

Control of Q factor in laterally-coupled vertical cavities

S. Chen, H. Francis, H.C. Hua, K.J. Che, Y.R. Wang, M. Hopkinson, S.Y. Zhang, C.Y. Jin
IET Optoelectron, Vol. 14, pp. 100-103, 2020.

Formation of laterally ordered quantum dot molecules by in situ nanosecond laser interference

Y.R. Wang, I.S. Han, C.Y. Jin
Applied Physics Letters, vol. 116, 201901, 2020.

Broadband, wide-angle antireflection in GaAs through surface nanostructuring for solar cell application

S. Behera, P. W. Fry, H. Francis, C.Y. Jin, M. Hopkinson
Scientific Reports, vol. 10, 6269,2020.

In-situ laser interference patterning of MBE growth surfaces

Y.R. Wang, M. Hopkinson, I.S. Han, C.Y. Jin
Laser-based Micro-and Nanoprocessing XIV (vol. 11268, p. 112680U). International Society for Optics and Photonics, 2020.

Directed self-assembly of InAs quantum dots using in situ interference lithography

Y.R. Wang, M. Hopkinson, H.I Sik, S. Behera, C.Y. Jin
Quantum Dots, Nanostructures, and Quantum Materials: Growth, Characterization, and Modeling XVII (vol. 11291, p. 1129107). International Society for Optics and Photonics, 2020.

Fabrication of sub-micrometer periodic nanostructures using pulsed laser interference for efficient light trapping in optoelectronic devices

S. Behera, Y.R Wang, H.I. Sik, C.Y. Jin, M. Hopkinson
Laser Applications in Microelectronic and Optoelectronic Manufacturing (LAMOM) XXV (Vol. 11267, p. 112671B). International Society for Optics and Photonics, 2020.

Generating optical frequency combs via nanoscale photonic structures.

H. Francis, S. Chen, K.J. Che, X.D. Zhang, M. Hopkinson, C.Y. Jin
Physics and Simulation of Optoelectronic Devices XXVIII (Vol. 11274, p. 1127412). International Society for Optics and Photonics, 2020.

Broadband, wide-angle antireflection in GaAs through surface nano-structuring for solar cell applications

S. Behera, P. Fry, H. Francis, C.Y. Jin, M. Hopkinson
Scientific Reports, vol. 10, p. 6269, 2020.

Theoretical modelling of single-mode lasing in microcavity lasers via optical interference injection

L.F. Wang, Y.R. Wang, H. Francis, M.J. Xia, F. Liu, M. Hopkinson, C.Y. Jin
Optics Express, vol. 28, issue 11, pp. 16486-16496, 2020.

Generating optical frequency combs via nano-scale all-optical modulators

H. Francis, S. Chen, K.J. Che, M. Hopkinson, C.Y. Jin
Physics and Simulation of Optoelectronic Devices XXVIII, 1127412, 2020.

2019

Photonic Crystal Cavity-Based Intensity Modulation for Integrated Optical Frequency Comb Generation

H. Francis, S. Chen, K.J. Che, M. Hopkinson, C.Y. Jin
Crystals, pp. 1–10, 2019.

Chaoyuan Jin